360 autoview portable turntable

ABSTRACT

A fast set-up and very portable turntable, able to rotate objects up to 7500 pounds at varying revolutions per minute. The modified “H” beam framework creates a low profile turntable with built-in loading and exiting ramp. Heavy duty casters riding on a large plate steel base, provide a smooth, stable surface for the revolving casters. Proximity switches are used to create a synchronized system, which operate the hydraulic cylinders used for stability. These switches can also trigger a digital camera every few degrees of rotation, creating a 360 degree virtual reality image. The custom designed trailer carries the turntable on its underside with the use of an inverted four inch drop axle to gain ground clearance. Winches are used to lift the turntable from the ground. Inverted towers with casters at the four corners of the trailer offer protection to the turntable from irregular surfaces or curbs.

BACKGROUND OF THE INVENTION

Over the past years, 360 degree product photography has continued to grow and this growth appears to be unabated. The shoe and jewelry industries, as examples, have successfully employed 360 degree animation to sell their products. These animations consist of between twelve to seventy-two images of a 360 degree spin of an object rotating on a small turntable. Such animation could also effectively showcase large objects, but the problem is portability and functionality of such a large turntable. Large turntables currently may be built into a floor or set up with extensive material and labor, however, they are anything but portable. The 360 autoview successfully addresses limitations and obstacles currently restricting the implementation of a portable large object turntable. Specifically, this 360 autoview turntable is transported location to location, suspended on the underside of a custom trailer. The total weight of the turntable and trailer is 4900 pounds, thereby allowing most SUV's, vans, or trucks to serve as the tow vehicle. The initial set-up of the turntable takes less than thirty minutes. The autoview portable turntable, among its many functions, may simply be used as a display to revolve an object. That object may also be captured on video or still images. Built into the turntable is a triggering mechanism to capture any object in 360 degree virtual reality when connected to a digital camera. The series of images taken can be compiled into one interactive 360 virtual reality digital file, using any of the several web programs found on the internet.

One of many commercial enterprises that would benefit from the use of this device is previously owned car sales. There are over sixty-two million registered autos in the U.S. New auto manufacturers using a digitized 360 degree image of their product, have given the viewer an ability to virtually manipulate and customize a vehicle's color, interior, and options. The process to create such a product takes months to develop and is not portable. Used car sales in 2012 reached forty and one-half million. Each of the vehicles sold is unique not only in color and options, but in paint quality, dents, rust, modifications, etc. Used auto dealers currently may photograph several views of a vehicle to put on their websites. That involves time to capture and reposition the vehicle to keep consistent lighting and exposure, and more time needed to view, edit, and upload to a website. Another limited option, attempting to capture a 360 view of a subject or auto, by moving the camera around the object, may result in a missed angle of view and ignores ever present exposure issues. For example, photographing with the sun or light source behind the camera means at the 180 degree point, the camera would be shooting into that light source producing lens flare, low contrast, and poor exposure. The constantly changing background would also be a distraction and could unintentionally include in the image, individuals unwilling to be photographed. In stark contrast, the 360 degree view turntable ensures consistent lighting and background by rotating the object. When using the 360 virtual reality feature, the images are equally spaced, resulting in a smooth rotation of the object. A 360 virtual reality image enhances the purchasing experience. The buyer does not have to be physically present to evaluate or compare items. The seller, by simply uploading the single interactive file on a website, makes it available to anyone with a computer, smart phone, tablet, or other web-based electronic medium. In addition, the single file allows the viewer to rotate forward or backward, and zoom in or out for detailed information on the object. The dealer and customer would have available at their fingertips, several examples of vehicles without geographical limitations, with each being viewed in a single interactive image.

SUMMARY OF THE INVENTION

In essence, the 360 autoview portable turntable is taking an existing stationary turntable model on the road. Patents exist for built-in garage turntables that rotate autos to eliminate the need to back out of garages. Small turntables exist, in order to display small objects. This device combines the portability of the small turntable with the size of the non-portable built-in, resulting in a NEW concept in the marketing of large objects. The portable, fast set-up turntable is capable of rotating up to 7500 pounds at varying speed.

The 360 autoview is a portable rectangular shaped turntable, with the unique ability to be moved to different locations by a trailer transport system. The turntable rotates objects of various sizes and weights. The rectangular turntable surface is eighty inches wide by twenty feet in length. The device rotates an object at varying speeds, one to three revolutions per minute is typical. The object on the turntable may be simply rotating to attract attention, to be captured digitally by video, or to provide a series of multiple still images. The turntable also features a triggering system that may be connected to a digital capture device. In a single revolution of the object, multiple equal angles of view are taken. These images may be viewed individually or combined and animated into one interactive 360 degree virtual reality.

The construction is all steel with several electronic components. The turntable has a custom built trailer to transport the turntable from location to location. The turntable is carried on the underside of the trailer, secured at four points by wire rope and two winches. Two cargo safety straps hook into a slot, one from each of the corners of one side of the turntable base, and pass over the trailer frame to hook into the slots of the opposite corners of the base. The total weight of the complete system is under 5000 pounds and is able to be towed by a SUV, van, or truck.

Upon arrival at the selected site, the safety cargo straps used in transportation are removed. The two winches lower the turntable with a base attached. The base provides a smooth surface for the casters of the turntable on which to roll and removes imperfections of the location surface. The hooks of the winches are undone and the trailer is driven off, leaving the turntable behind. A control box which is carried separately in the tow vehicle, has electronic components such as a battery charger, transformer, and an AC inverter. These quickly connect, with the use of a twelve pin multi-connector and a 220V extension cord, to the connector box attached to the base of the turntable. The control box receives its power from a portable generator or a 120V power source nearby. The AC inverter powers the turntable and in its first rotation, receives signals from proximity switches mounted near the drive sprocket. These switches communicate position, direction, and speed by reading the lobes of the chain driven sprocket. The signals are processed in the programmable logic controller of the AC inverter. An algorithm communicates commands for the hydraulic cylinders located at the four corners of the turntable, to extend or retract. The hydraulic cylinders extend to contact the ground offering stability and to provide stress relief of the turntable when stopped. The AC inverter's algorithm may also be used to send a trigger signal to a digital camera. This would yield multiple images, each of an equal differential of viewing angle. An image taken every five degrees, as an example, totals seventy-two images in a 360 degree revolution. These images may be used individually or combined and animated into one interactive 360 degree virtual reality.

The profile of the turntable is based on a modified “H” beam that has a sloped entry and exit. This allows a vehicle to drive directly onto the turntable, be spun, and then driven off. Using the auto as an example, numerous vehicles may be ready in cue, being prepped, and measuring the length is a key step in assuring a successful outcome. If a 360 virtual reality animation is being performed, the procedure that is recommended to prevent a visual wobble of the auto: the length of the vehicle is divided in half, and a measuring scale on the turntable surface provides the stop position. Specifically, if the vehicle is sixteen feet long, it is driven to the eight foot mark from the turntable's center pivot. The images are then stored in a computer, where the subject is assigned a name, number, or other identifier information. The multiple images, if a 360 degree animation is being performed, are combined into one interactive file. This file on any computer, smart phone, or web-based medium, allows the viewer the ability to rotate forward or backward and zoom in or out for detailed information.

To move to another location, the power connections from the control box are removed and the trailer is repositioned above the turntable. The winch hooks are reconnected and lift the turntable to a transport cross member. The cross member has angled plates on its ends to center the turntable laterally and blades extending below the member to secure linearly the turntable. The cargo safety straps are reattached to the base and over the trailer frame to secure for transport.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 001 Overall image of the custom trailer and turntable in a separated state.

FIG. 100 Low angle front view of the base consisting of an eighty by eighty quarter inch steel plate with rubber mounted selectively on the underside, leaving a channel for wiring to be installed. The center pivot is a trailer axle mounted vertically by bolts through the one-quarter inch base plate and the axle's brake mounting flange.

FIG. 200 Side view of the center pivot with the SK bushing inserted into the seventy-two tooth gear. A bronze sleeve bearing is used as a slip joint for the pivot and SK bushing.

FIG. 300 The upper half of the slip ring is mounted to the underside of the seventy-two tooth sprocket. The bottom half is held stationary by a bracket attached to the base. Wiring to the power transferring slip ring comes from the channel under the base plate to the electrical box and then on to the bottom half of the slip ring. The wiring from the upper half of the slip ring travels through a hole drilled in the sprocket to a connector.

FIG. 400 A low view from the front, of the underside of the base plate with a power chase for power and signal wiring terminating at the electrical enclosure. The chase is mounted to the front edge of the base plate. This wiring makes all its connections in two multi-pin connectors mounted to the side of the electrical enclosure.

FIG. 500 View of the drive motor with the gearbox mounted to the base plate. The drive chain uses a tensioner to remove slack in either forward or reverse directions.

FIG. 600 Top view of the drive cover with the pivot axle's top bolt and nut in a triangular recessed mounting. This bolt keeps the rotating turntable centered, plus transfers the weight of the base plate and drive system to the turntable structure when in transport. The chain drive sprocket positioned just below the cover uses the three bolts from its SK bushing to pass through the cover's recessed mounting plate. These three bolts serve as the drive to rotate the turntable structure. The electrical coupling that is mounted on top of the chain drive sprocket is accessed through the outdoor electrical cover's hinged door mounted on top of the cover, immediately behind the recessed mounting.

FIG. 700 The turntable structure is built around four “H” beams. The twenty foot length beams are six inches tall. The eighty inches in the middle of the length remains as manufactured, but the opposing ends are modified. Starting at both ends, the web is cut for the first twelve inches of length, from zero to a three inch height. From that point, at the three inch height, twelve inches in, the cut continues diagonally sixty-eight inches to meet the center eighty inches of the beam that are not modified. The top of the web immediately beneath the top flange is also cut eighty inches to meet the previous diagonal cut. This upper piece of web is removed and the top flange is bent down to meet the diagonal cut web. The flange is welded to the remaining modified web component. Six and four inch “C” channels are used for cross member support. In addition, a one-quarter inch steel plate and a three-quarter inch half pipe are welded to the leading edges of the modified beams.

FIG. 800 Four steel casters are mounted to the cross member “C” channels. The casters project five-eighths of an inch below the turntable structure. They ride on outer edge of the one-quarter inch base plate.

FIG. 900 Four hydraulic cylinders are used at the four corners of the turntable structure to stabilizing this device while a vehicle or object is loaded. The cylinders are mounted facing down on a four inch “C” channel also facing down. The cylinders have a one inch throw with an attached five inch square plate to protect the surface when they contact the ground.

FIG. 1000 Located behind the drive cover, hung on the cross member framework, is a hydraulic pump, battery, manifold, and a pressure switch. These items revolve with the turntable. The battery receives a twelve volt charge from the slip ring wiring traveling through the sprocket and across the surface mounted conduit on the drive cover. Also the up and down signal for the hydraulics travel on the same run. The pressure of the hydraulic pump's output goes to a manifold with a pressure switch in between. The switch shuts down the pump when maximum pressure is reached.

FIG. 1100 The entire turntable framework is covered with one-eighth inch steel plate. The outer eighteen inches of surface on sides of the entire length are in a steel diamond plate texture for traction. The hydraulic components are accessible with the removal of the access cover behind the drive cover. The drive cover can be removed to access for service any of the drive components.

FIG. 1200 Mounted in a bracket, are two proximity switches reading the lobes of the seventy-two tooth sprocket. These switches send signals through the base electrical run to a controller, letting it know direction and position of the turntable. These signals may also be used to trigger a recording device such as a camera.

FIG. 1300 The wiring scheme shows signals and voltage of the powers supplied to the components. The control box houses the AC inverter to control speed, supplies twenty-four volts for the proximity switches and receives the signals from the switches. A twelve volt battery charger supplies the voltage for the hydraulic pump system.

FIG. 2000 The trailer used to transport the turntable is constructed of two by four inch steel tube. A single four inch drop axle is inverted to be a four inch rise. This combined with the oversize tires gives ground clearance for the turntable when it is drawn up to the underside of the trailer. To position the trailer over the turntable, a hand operated swivel wheeled jack is used. The hand crank drives two six inch wheels and a lever steers or applies brakes to hold the position.

FIG. 2100 Inverted towers are constructed of one-quarter inch steel to become the structure of a curb protector. A swivel caster is added to the bottom of each tower. In the event, there is a contact of an irregular surface or curb, the swivel caster will protect that surface and the turntable suspended to the bottom of the trailer.

FIG. 2200 The lifting system used to lift the turntable to the trailer underside is comprised of two twelve volt winches and batteries. There are two wire ropes on each winch take up spindle. One rope drops straight down and the other travels across the trailer frame to the opposite side, where a pulley directs that rope down. There are hooks on the ends of each rope that engage a one steel dowel welded across the slot cut in the turntable deck. The turntable is then raised to the cradles on the underside of the trailer. A turnbuckle is used in the rope running across the trailer to allow adjustment if the seating of the turntable to the cradle is not equal.

FIG. 2300 To secure the raised turntable for transportation after the turntable is raised to the cradled position, two cargo straps are attached at the four corners of the base. These straps go up and over the trailer framework and are drawn tight.

DETAILED DESCRIPTION OF THE INVENTION

This utility device consists of a heavy duty (twenty foot by eighty inch) custom built steel turntable 001 of FIG. 001 and a custom built transportation trailer 002. The turntable 001 is easily moved from location to location by raising it from the ground with winches 2201 of FIG. 2200 built into the custom trailer 002. The winches 2201 draw the turntable 001 up to a cross member 2303 of FIG. 2300, securing it in position on the underside of the trailer 002. When the trailer 002 and turntable 001 are positioned at the desired location, the winches 2201 are used to lower the turntable 001 to the flat surface. The trailer winches 2201 are disengaged from the turntable 001 and the trailer 002 is moved away, leaving the turntable 001 behind. The turntable 001 of FIG. 001 rests on a base 104 of FIG. 100 which is a one-quarter inch eighty by eight inch steel plate with a three-eighths inch thick compression rubber 105 adhered to the underside. The base is needed to offer a smooth surface for the turntable casters 801 of FIG. 800 on which to ride. There are three purposes to the rubber 105: first, to protect the location's surface, secondly, to prevent creeping as the turntable 001 rotates, and finally to absorb slight irregularities such as small stones that may be present on the location's surface. An additional benefit to the rubber 105 is a four inch strip removed to create a channel 107 of FIG. 100 where wires run to feed power and send signals back and forth to a control box 1300 of FIG. 1300. On the topside of the base 104, at its center, is a 3000# rated trailer axle 101 with a brake flange. It is mounted vertically to the base. The five three-eighths inch category eight rated bolts 102 are anchored to the base 104. Washers are used as shims 106 over the bolts 102 to adjust the axle 101 mounting height if needed and offer stability. Category eight nuts 103 are used to secure the axle 101 to the base 104. Mounted on the one and one-half inch outer bearing surface of the axle 101, is a one and three-quarter inch OD bronze sleeve 201 of FIG. 200 with a flange edge. This sleeve 201 offers reduced friction to the SK quick mount bushing 202 that is placed over the sleeve 201. This bushing provides the mounting of a seventy-two tooth fourteen inch sprocket 203. A shim 204 one-sixteenth inch thick is placed in the compression slot of the SK bushing 202 to prevent its clamping too tight on the sleeve 201 when joining bushing 202 and sprocket 203. Attached to the bottom of that sprocket 203 is the upper half of an electrical slip ring 301 of FIG. 300, and the bottom half of the ring 301 attaches to the base 104 of FIG. 100 by a bracket 304 of FIG. 300 mounted to the brake flange of axle 101. This ring 301 allows signals and 12V DC power to transfer from the stationary base 104 to the rotating turntable 001 of FIG. 000 without the use of cords. The power lines from the power chase 401 of FIG. 400 under the base 104 enter directly into a three-quarter inch 90 degree service connector 302 of FIG. 300. This connector is modified with two holes to allow it to be mounted to the base 104 directly over the wires emerging from the underside of the base 104. The slip ring 301 stator side 301 a lead wires join in that connector box 302 mounted to the base 104. The stator side 301 a of the slip ring 301 is kept in stationary position with the bracket 304 mounted to the axle's flange 101. The rotator side 301 b of the slip ring 301 is mounted to the underside of the seventy-two tooth sprocket 203 of FIG. 200 and its SK bushing 202 via four two and three-quarter inch # eight bolts 305. The bolts pass through two inch long three-eighth inch tubes 306 which are in between the sprocket 203 and slip ring 301 to prevent distortion of the slip ring 301 when tightening. Electrical power and signals are transferred to the revolving turntable 001 through a three-eighth inch opening drilled in the seventy-two tooth sprocket 203. A harsh environment DC connector 303 is utilized for protection from the elements and to facilitate the ease of removal of the large sprocket 203 if service is needed. The power and signals are delivered to the center of the base 104 of FIG. 100 as previously described, by a channel 107 cut in the ⅜ inch rubber 105 adhered to the base 104. A one-quarter inch wire chase or tunnel is created by two one-quarter inch flat steel one inch bars mounted on the edge of three sides of a four inch wide flat one-quarter inch steel plate 401 of FIG. 400. That one-eighth inch steel plate 401 runs from the center to the leading edge of the eighty by eighty inch base 104. From that point, a one-eighth inch steel “T” 408 extends eight feet to an eight by eight inch electrical connection box 403. Maintaining a chase for the wires from the base 104 is accomplished by adding on top of the fore mentioned one-eighth inch “T” 408, a six inch wide, one-half inch tall door sill plate 402 with open channels on its underside. The eight by eight inch electrical box 403 has a recessed 220V four pin plug 404 and a twelve conductor male multi-pin connector 405 mounted to the side of the box 403. Wiring enters the chase through a horizontal slot cut into the base of the eight by eight inch box 403. Back at the center of the base 104 of FIG. 100, the drive system for the turntable 001 of FIG. 001 is provided by a 1 hp, 220V AC helical drive 501 of FIG. 500. A chain tensioner 503 is mounted on top of the channel steel mounting brackets 508 for the drive 501. The helical drive system 501 has an internal gear speed reduction of 97:1 and produces on the output shaft, an eighteen and one-half rpm speed, reduced from the normal 1800 rpm motor output. A twelve tooth sprocket 502 on the drive's 501 output shaft transfers power to the seventy-two tooth sprocket 203 of FIG. 500 via a #50 roller chain 507 of FIG. 500 yielding an additional six rpm reduction. This puts the turntable 001 rotating speed at three rpm. Covered later is an AC inverter 301 of FIG. 1300 that paired with the helical drive 501 allows a variable speed from the normal three rpm down to one rpm. The cover lid 601 of FIG. 600 is comprised of a one-quarter inch steel plate and two by two inch angle irons 602. It has a recessed triangular mounting flange. The three category five bolts 604 mount through this recessed flange, directly to the large seventy-two tooth sprocket 203 of FIG. 200, thereby transferring rotating power to the turntable 001 of FIG. 000. The one inch threaded end of the axle 101 of FIG. 100 extends through the turntable cover lid 601 and is secured with a slotted lock nut 605 over a graphite plugged bronze washer 603 used to reduce friction. This lock nut 605 holds the base 104 to the turntable 001 while it is lifted for transport. The backbone of the turntable 001 of FIG. 001 is built around four “H” beams (six inch web height 701 a and four inch flange width 701 b) 701 of FIG. 700. These twenty foot long beams have a three inch taper cut into the first segment of the beam, starting at fifty inches in from each end, progressing to twelve inches from the end. The last twelve inches has a taper from the remaining three inches down to three-quarter inch. A three-quarter inch pipe 704 is split in half and welded to the front and back leading edge of the turntable. A one-quarter inch steel plate 705 twelve inch wide is welded laterally to the bottom side of the angled twelve inch leading edge of the four modified “H” beams. The cross members are “C” channel, six inch 702 four inch 703. The four inch channels 703 are welded channel down to accept the hydraulic cylinders 901 of FIG. 900. The turntable cover lid 601 of FIG. 600 is attached to the frame of the turntable. The turntable revolves on the eighty by eighty inch base 104 of FIG. 100 via the four casters 801 of FIG. 800 mounted to the frame by one inch bolts 802, washer, a slotted locknut, and cotter pin. They are rated at 6000#, with roller bearings and protrude five-eighth inch beyond the underside of the turntable 001 of FIG. 001 frame. The casters ride on the outer perimeter of the base 104, in a seventy inch diameter circle with the axle 101 as center. Hydraulic cylinders 901 of FIG. 900 are mounted to the underside of the four inch “C” channels 703 of FIG. 700 which are mounted with channel facing down and anchored by two bolts 903. These cylinders 901 extend one inch under pressurization, in order to contact the ground whenever the turntable 001 of FIG. 000 is not revolving. Their purpose is to offer stability and stress relief when loading and unloading the vehicle. The hydraulic cylinders 901 have five by five inch one-quarter steel plates 902 mounted to the end of the cylinder to prevent damage to the location surface. The cylinders 901 of FIG. 900 are pressurized by a hydraulic pump 1001 of FIG. 1000 producing 4000 psi. The pump receives power from a sealed lead acid 12V deep cycle battery 1002. This type of battery 1002 is used to allow it to be mounted on its side and thereby fit in the low profile of this turntable 001 of FIG. 001. A pressure switch 1004 of FIG. 1000 role in the system is to release or hold the hydraulic pressure at 3500 psi. The pressure switch 1004 may command extend or retract position for the cylinders 901. The switch receives its signals through the slip ring 301 of FIG. 300. The battery 1002 retains a charge by a 14V DC current also delivered through the slip ring 301. The two electrical covers 1106 have flip up doors to access the connectors 303 of FIG. 300. The removal of the drive cover 601 of FIG. 600 necessitates the uncoupling of the connectors 303. The four hydraulic cylinders 901 receive equal pressure via a six-port manifold 1003. Four ports are used for the cylinders 901, one port for the pressure switch 1004 and gauge 1012, plus one port for the supply. The supply pressure is provided through a one-half inch rubber hydraulic hose 1011, while the cylinders 901 receive their pressure via a three-eighth inch aluminum composite line 1005 rated at 4700 psi. The two outer “H” beams 701 of FIG. 700, are covered in a one-eighth inch wide diamond plate 1101 of FIG. 1100 for traction with smooth steel 1102 filling in the center. The cover for the hydraulics is comprised of a frame made from one by one inch angle iron 1104 and a one-eighth inch steel cover 1105. The lid is secured with four studs and wing nuts making it easily accessible. For the system to know when to rotate, raise or lower the hydraulic cylinders 901 of FIG. 900, two proximity switches 1201 of FIG. 1200 are installed on a bracket 1202 secured to the drive 508 of FIG. 500 mount. They are positioned to read, but not contact the lobes of the seventy-two tooth sprocket 203 of FIG. 200, giving position, rotation direction, speed, and when a digital camera is connected, triggers the camera at an equally divided integral number of photos in a 360 degree revolution. The signals from the proximity switches 1201 follow the electrical chase 401 of FIG. 400 traveling under the base 104 of FIG. 100 to the electrical enclosure 403. The wires are connected to the male twelve pin multi connector 405 of FIG. 400. Also connected on this multi pin connector 405 are hydraulic extend and retract commands, 24V DC power for proximity switches, and 14V DC supplied by a battery charger 1306. The 220V AC 404 and multi-pin cable connectors 405 and on the side of the electrical enclosure 403 connect to the control box 1300 of FIG. 1300. Housed in this box is the AC inverter 1301 and a transformer 1303. The inverter 1301 is powered by a portable generator or extension cord from the nearest power source. The 120V AC power 1302 is run through the transformer 1303 in reverse, bumping the voltage up to 220V AC. This voltage is needed for the inverter 1301 and helical drive 501 of FIG. 500. The inverter 1301 is custom programmed through the inverter software to receive the signals from the proximity switches 1201 of FIG. 1200 and send out signals to the cylinders 901 of FIG. 900 and a still digital camera if connected. The inverter 1301 also controls the speed of the helical drive 501 by varying the voltage and frequency. Engaging the start button on the inverter 1301, the cylinders 901 receive the signal to retract, the helical drive 501 exercises a slow acceleration to selected speed. If a camera 1305 is connected, it will receive a trigger signal at every selected degree of rotation as commanded by the operator. The accuracy of the timing is provided by the proximity switches 1201 reading the lobes of the sprocket 203 of FIG. 200. As the turntable approaches the completion of a 360 degree revolution, the inverter 1301 sends a gradual deceleration signal to the helical drive 501. At completion of the full revolution, the cylinders 901 receive an extend signal to provide stability and stress relief for unloading and loading next vehicle. The main frame of the trailer 002 of FIG. 000 is made of two by four inch tube steel 2001 of FIG. 2000. Wires are run through the inside of the tube 2001 to the brakes, side marker lights as well as the brake and turn signals. A 7000# four inch drop axle 2002 is mounted upside down to gain the maximum ground clearance. In addition, the springs are mounted on the top of the axle versus the normal mount position under the axle. Two thirty-one and one-half inch diameter tires 2004 are used for additional clearance. A travel jack 2014 with two wheels and a brake, uses a hand crank drive system allowing the trailer to be critically positioned, aligning the trailer 002 over the hoisting points of the turntable 001. Because the turntable 001 of FIG. 001 hangs beneath the trailer 002 during transportation and its leading edges are only three-quarter inch in height, all four corners of the trailer 002 feature descending towers, which serve as curb protectors to protect the turntable and the road surface. The curb protectors are constructed of one-quarter inch steel 2101 and reinforced with one-quarter inch steel triangles 2102. Four inch steel casters 2103 rated at 1000# each are mounted to the lowest point of each of the curb protectors. These do not contact the ground except in the rare situation of steep incline, curb, or dip in the road surface. They contact the inclined surface and guide the trailer 002 and turntable 001 past the irregularity of the road surface. Two 12,000# winches 2201 of FIG. 2200 are mounted on the reinforcing plate 2207. There are two three-eighth inch wire ropes 2211 wrapped separately on each winch 2201. A pulley 2202 is used on the frame 2001 of FIG. 2000 on the side opposite of each winch 2201 to allow equal lift. A slip hook 2206 is attached to the one inch rod 2210 welded to the turntable frame members 701 & 702 of FIG. 700. The rod 2210 is accessed through the slot 2209 cut in the diamond plate deck 1101 of FIG. 1100 and the top flange of the “H” beam 701. A turnbuckle 2203 is used to calibrate the two wire ropes 2211 to make the turntable 001 contact equally the cross member 2303 of FIG. 2300 of the securing system. All extra cable is removed to only allow five wraps of wire rope 2211 on the winch 2201 bar. The purpose is to get the maximum lift power and a reduction in cable speed. The winches 2201 are powered each by their own 12V battery 2205. These batteries 2205 are wired together in the wiring harness 2008 of FIG. 2000 so that during transportation, the batteries will charge through the seven pin wiring harness 2008 of the tow vehicle. Part of the trailer underside is a centering and transport cross member 2303 of FIG. 2300. As the turntable 001 of FIG. 001 is lifted toward the cross member 2303, the forty-five degree angled plates 2307 which are covered with a nylon surface 2301, center the turntable 001 of FIG. 000 laterally while the angled blades 2304 center it linearly. The blades 2304 insert into the slots 2209 on the turntable 001 to prevent movement back and forth. The turntable 001 rests against the rubber pads on the underside of the cross member 2303. This securing system is needed because the wire rope 2211 alone would not prevent the turntable 001 from swinging side to side or front to back in transport. Two safety cargo straps 2302 rated at 3500# are clipped into the four slots at the corners of the base 101 and are secured over the top of the trailer frame 2001 of FIG. 2000. These straps 2302 are used for safety purposes during transportation but are also necessary to remove stress on the single one inch slotted nut 605 of FIG. 600 on the pivot axle 101 of FIG. 100 that is carrying the load of the base and drive. A cargo bin 3002 of FIG. 3000 is mounted on the back of the trailer 002 of FIG. 000 to house items needed and offer counter balance to reduce the tongue weight on the hitch, making the trailer 002 more maneuverable when travel jack 2014 of FIG. 2000 is operated by hand. 

The invention claimed is:
 1. The modified “H” beam design, creating a new beam profile, by the modification to any existing “H” or “I” beam, or a change in the manufacturing practices in the construction of such beams, thereby creating a taper at the front and back with the removal of a triangular section of the web, producing a low profile approach and exit.
 2. The mobile base, consisting of a large smooth steel plate with a rubber covering on the underside, having an axle mounted in an upright position on it, becoming a center pivot allowing the rotation of a platform via casters projecting below the framework of said platform, riding on the smooth steel, with the rubber eliminating imperfections that may be present on a location's surface, plus, keeping the platform from walking across the surface while rotating.
 3. A triggering system using proximity switches, in conjunction with a drive sprocket or gear, that locate and count lobes or teeth of the sprocket or gear, and in turn, send these signals to a programmable logic controller (PLC) which then operates systems such as hydraulic extension or retraction, or triggering a camera, creating a variety of equal segments or viewing angles of a rotation.
 4. A traditional four inch drop trailer axle is modification for an alternate use, by flipping the axle and rotating the arc of the springs 180 degrees, thereby creating a four inch lift rather than a drop, and that combined with oversize tires, allows ground clearance for a load to be suspended on the underside of a trailer using this system.
 5. A winching and anchor system to lift and secure a platform or material to the underside of a trailer, allowing weighted objects to be lifted without the use of heavy equipment, via winches drawing the load up to cross members that are mounted below and between the trailer sides with the ends of these securing cross members having angled plates in which to center and secure laterally the load.
 6. The design of inverted towers located at each of the corners of a trailer, with each tower having casters on the bottom, to match the lowest level of desired ground clearance, offers protection to the framework of a trailer or a load carried on the underside of the trailer, such that, if an elevated curb or other obstruction is encountered, the caster will follow that irregularity and lift or shift the trailer height to clear such an obstruction. 